/**
 * @license Highcharts JS v6.0.0 (2017-10-04)
 *
 * (c) 2016 Highsoft AS
 * Authors: Jon Arild Nygard
 *
 * License: www.highcharts.com/license
 */
'use strict';
(function(factory) {
    if (typeof module === 'object' && module.exports) {
        module.exports = factory;
    } else {
        factory(Highcharts);
    }
}(function(Highcharts) {
    var draw = (function() {
        var isFn = function(x) {
            return typeof x === 'function';
        };

        /**
         * draw - Handles the drawing of a point.
         * TODO: add type checking.
         *
         * @param  {object} params Parameters.
         * @return {undefined} Returns undefined.
         */
        var draw = function draw(params) {
            var point = this,
                graphic = point.graphic,
                animate = params.animate,
                attr = params.attr,
                onComplete = params.onComplete,
                css = params.css,
                group = params.group,
                renderer = params.renderer,
                shape = params.shapeArgs,
                type = params.shapeType;

            if (point.shouldDraw()) {
                if (!graphic) {
                    point.graphic = graphic = renderer[type](shape).add(group);
                }
                graphic.css(css).attr(attr).animate(animate, undefined, onComplete);
            } else if (graphic) {
                graphic.animate(animate, undefined, function() {
                    point.graphic = graphic = graphic.destroy();
                    if (isFn(onComplete)) {
                        onComplete();
                    }
                });
            }
        };
        return draw;
    }());
    (function(H, drawPoint) {
        /**
         * (c) 2016 Highsoft AS
         * Authors: Jon Arild Nygard
         *
         * License: www.highcharts.com/license
         *
         * This is an experimental Highcharts module which enables visualization
         * of a word cloud.
         */
        var each = H.each,
            extend = H.extend,
            isNumber = H.isNumber,
            isObject = H.isObject,
            Series = H.Series;

        /**
         * isRectanglesIntersecting - Detects if there is a collision between two
         *     rectangles.
         *
         * @param  {object} r1 First rectangle.
         * @param  {object} r2 Second rectangle.
         * @return {boolean} Returns true if the rectangles overlap.
         */
        var isRectanglesIntersecting = function isRectanglesIntersecting(r1, r2) {
            return !(
                r2.left > r1.right ||
                r2.right < r1.left ||
                r2.top > r1.bottom ||
                r2.bottom < r1.top
            );
        };

        /**
         * intersectsAnyWord - Detects if a word collides with any previously placed
         *     words.
         *
         * @param  {Point} point Point which the word is connected to.
         * @param  {Array} points Previously placed points to check against.
         * @return {boolean} Returns true if there is collision.
         */
        var intersectsAnyWord = function intersectsAnyWord(point, points) {
            var intersects = false,
                rect1 = point.rect,
                rect2;
            if (point.lastCollidedWith) {
                rect2 = point.lastCollidedWith.rect;
                intersects = isRectanglesIntersecting(rect1, rect2);
                // If they no longer intersects, remove the cache from the point.
                if (!intersects) {
                    delete point.lastCollidedWith;
                }
            }
            if (!intersects) {
                intersects = !!H.find(points, function(p) {
                    var result;
                    rect2 = p.rect;
                    result = isRectanglesIntersecting(rect1, rect2);
                    if (result) {
                        point.lastCollidedWith = p;
                    }
                    return result;
                });
            }
            return intersects;
        };

        /**
         * archimedeanSpiral - Gives a set of cordinates for an Archimedian Spiral.
         *
         * @param  {type} t How far along the spiral we have traversed.
         * @return {object} Resulting coordinates, x and y.
         */
        var archimedeanSpiral = function archimedeanSpiral(t) {
            t *= 0.1;
            return {
                x: t * Math.cos(t),
                y: t * Math.sin(t)
            };
        };

        /**
         * getRandomPosition
         *
         * @param  {number} size
         * @return {number}
         */
        var getRandomPosition = function getRandomPosition(size) {
            return Math.round((size * (Math.random() + 0.5)) / 2);
        };

        /**
         * getScale - Calculates the proper scale to fit the cloud inside the plotting
         *     area.
         *
         * @param  {number} targetWidth  Width of target area.
         * @param  {number} targetHeight Height of target area.
         * @param  {object} field The playing field.
         * @param  {Series} series Series object.
         * @return {number} Returns the value to scale the playing field up to the size
         *     of the target area.
         */
        var getScale = function getScale(targetWidth, targetHeight, field) {
            var height = Math.max(Math.abs(field.top), Math.abs(field.bottom)) * 2,
                width = Math.max(Math.abs(field.left), Math.abs(field.right)) * 2,
                scaleX = 1 / width * targetWidth,
                scaleY = 1 / height * targetHeight;
            return Math.min(scaleX, scaleY);
        };

        /**
         * getPlayingField - Calculates what is called the playing field.
         *    The field is the area which all the words are allowed to be positioned
         *    within. The area is proportioned to match the target aspect ratio.
         *
         * @param  {number} targetWidth Width of the target area.
         * @param  {number} targetHeight Height of the target area.
         * @return {object} The width and height of the playing field.
         */
        var getPlayingField = function getPlayingField(targetWidth, targetHeight) {
            var ratio = targetWidth / targetHeight;
            return {
                width: 256 * ratio,
                height: 256
            };
        };


        /**
         * getRotation - Calculates a number of degrees to rotate, based upon a number
         *     of orientations within a range from-to.
         *
         * @param  {type} orientations Number of orientations.
         * @param  {type} from The smallest degree of rotation.
         * @param  {type} to The largest degree of rotation.
         * @return {type} Returns the resulting rotation for the word.
         */
        var getRotation = function getRotation(orientations, from, to) {
            var range = to - from,
                intervals = range / (orientations - 1),
                orientation = Math.floor(Math.random() * orientations);
            return from + (orientation * intervals);
        };

        /**
         * outsidePlayingField - Detects if a word is placed outside the playing field.
         *
         * @param  {Point} point Point which the word is connected to.
         * @param  {object} field The width and height of the playing field.
         * @return {boolean} Returns true if the word is placed outside the field.
         */
        var outsidePlayingField = function outsidePlayingField(wrapper, field) {
            var rect = wrapper.getBBox(),
                playingField = {
                    left: -(field.width / 2),
                    right: field.width / 2,
                    top: -(field.height / 2),
                    bottom: field.height / 2
                };
            return !(
                playingField.left < rect.x &&
                playingField.right > (rect.x + rect.width) &&
                playingField.top < rect.y &&
                playingField.bottom > (rect.y + rect.height)
            );
        };

        /**
         * intersectionTesting - Check if a point intersects with previously placed
         * words, or if it goes outside the field boundaries. If a collision, then try
         * to adjusts the position.
         *
         * @param  {object} point Point to test for intersections.
         * @param  {object} options Options object. 
         * @return {boolean|object} Returns an object with how much to correct the
         * positions. Returns false if the word should not be placed at all.
         */
        var intersectionTesting = function intersectionTesting(point, options) {
            var placed = options.placed,
                element = options.element,
                field = options.field,
                clientRect = options.clientRect,
                spiral = options.spiral,
                maxDelta = options.maxDelta,
                spiralIsSmallish = true,
                attempt = 0,
                delta = {
                    x: 0,
                    y: 0
                },
                rect = point.rect = extend({}, clientRect);
            /**
             * while w intersects any previously placed words:
             *    do {
             *      move w a little bit along a spiral path
             *    } while any part of w is outside the playing field and
             *        the spiral radius is still smallish
             */
            while (
                (
                    intersectsAnyWord(point, placed) ||
                    outsidePlayingField(element, field)
                ) && spiralIsSmallish
            ) {
                delta = spiral(attempt);
                // Update the DOMRect with new positions.
                rect.left = clientRect.left + delta.x;
                rect.right = rect.left + rect.width;
                rect.top = clientRect.top + delta.y;
                rect.bottom = rect.top + rect.height;
                spiralIsSmallish = (
                    Math.min(Math.abs(delta.x), Math.abs(delta.y)) < maxDelta
                );
                attempt++;
                // Emergency brake. TODO make spiralling logic more foolproof.
                if (attempt > 1000) {
                    spiralIsSmallish = false;
                }
            }
            if (!spiralIsSmallish) {
                delta = false;
            }
            return delta;
        };

        /**
         * updateFieldBoundaries - If a rectangle is outside a give field, then the
         * boundaries of the field is adjusted accordingly. Modifies the field object
         * which is passed as the first parameter.
         *
         * @param  {object} field The bounding box of a playing field.
         * @param  {object} placement The bounding box for a placed point.
         * @return {object} Returns a modified field object.
         */
        var updateFieldBoundaries = function updateFieldBoundaries(field, rectangle) {
            // TODO improve type checking.
            if (!isNumber(field.left) || field.left > rectangle.left) {
                field.left = rectangle.left;
            }
            if (!isNumber(field.right) || field.right < rectangle.right) {
                field.right = rectangle.right;
            }
            if (!isNumber(field.top) || field.top > rectangle.top) {
                field.top = rectangle.top;
            }
            if (!isNumber(field.bottom) || field.bottom < rectangle.bottom) {
                field.bottom = rectangle.bottom;
            }
            return field;
        };

        /**
         * A word cloud is a visualization of a set of words, where the size and
         * placement of a word is determined by how it is weighted.
         *
         * @extends {plotOptions.column}
         * @sample highcharts/demo/wordcloud Word Cloud chart
         * @excluding allAreas, boostThreshold, clip, colorAxis, compare, compareBase,
         *            crisp, cropTreshold, dataGrouping, dataLabels, depth, edgeColor,
         *            findNearestPointBy, getExtremesFromAll, grouping, groupPadding,
         *            groupZPadding, joinBy, maxPointWidth, minPointLength,
         *            navigatorOptions, negativeColor, pointInterval, pointIntervalUnit,
         *            pointPadding, pointPlacement, pointRange, pointStart, pointWidth,
         *            pointStart, pointWidth, shadow, showCheckbox, showInNavigator,
         *            softThreshold, stacking, threshold, zoneAxis, zones
         * @product highcharts
         * @since  6.0.0
         * @optionparent plotOptions.wordcloud
         */
        var wordCloudOptions = {
            animation: {
                duration: 500
            },
            borderWidth: 0,
            clip: false, // Something goes wrong with clip. // TODO fix this
            /**
             * When using automatic point colors pulled from the `options.colors`
             * collection, this option determines whether the chart should receive
             * one color per series or one color per point.
             *
             * @see [series colors](#plotOptions.column.colors)
             */
            colorByPoint: true,
            /**
             * This option decides which algorithm is used for placement, and rotation
             * of a word. The choice of algorith is therefore a crucial part of the
             * resulting layout of the wordcloud.
             * It is possible for users to add their own custom placement strategies
             * for use in word cloud. Read more about it in our
             * [documentation](https://www.highcharts.com/docs/chart-and-series-types/word-cloud-series#custom-placement-strategies)
             *
             * @validvalue: ["random"]
             */
            placementStrategy: 'random',
            /**
             * Rotation options for the words in the wordcloud.
             * @sample highcharts/plotoptions/wordcloud-rotation
             *         Word cloud with rotation
             */
            rotation: {
                /**
                 * The smallest degree of rotation for a word.
                 */
                from: 0,
                /**
                 * The number of possible orientations for a word, within the range of
                 * `rotation.from` and `rotation.to`.
                 */
                orientations: 2,
                /**
                 * The largest degree of rotation for a word.
                 */
                to: 90
            },
            showInLegend: false,
            /**
             * Spiral used for placing a word after the inital position experienced a
             * collision with either another word or the borders.
             * It is possible for users to add their own custom spiralling algorithms
             * for use in word cloud. Read more about it in our
             * [documentation](https://www.highcharts.com/docs/chart-and-series-types/word-cloud-series#custom-spiralling-algorithm)
             *
             * @validvalue: ["archimedean"]
             */
            spiral: 'archimedean',
            /**
             * CSS styles for the words.
             *
             * @type {CSSObject}
             * @default {"fontFamily":"Impact, sans-serif"}
             */
            style: {
                /**
                 * The font family to use for the word cloud.
                 */
                fontFamily: 'Impact, sans-serif'
            },
            tooltip: {
                followPointer: true
            }
        };

        /**
         * Properties of the WordCloud series.
         */
        var wordCloudSeries = {
            animate: Series.prototype.animate,
            bindAxes: function() {
                var wordcloudAxis = {
                    endOnTick: false,
                    gridLineWidth: 0,
                    lineWidth: 0,
                    maxPadding: 0,
                    startOnTick: false,
                    title: null,
                    tickPositions: []
                };
                Series.prototype.bindAxes.call(this);
                extend(this.yAxis.options, wordcloudAxis);
                extend(this.xAxis.options, wordcloudAxis);
            },
            /**
             * deriveFontSize - Calculates the fontSize of a word based on its weight.
             *
             * @param  {number} relativeWeight The weight of the word, on a scale 0-1.
             * @return {number} Returns the resulting fontSize of a word.
             */
            deriveFontSize: function deriveFontSize(relativeWeight) {
                var maxFontSize = 25;
                return Math.floor(maxFontSize * relativeWeight);
            },
            drawPoints: function() {
                var series = this,
                    hasRendered = series.hasRendered,
                    xAxis = series.xAxis,
                    yAxis = series.yAxis,
                    chart = series.chart,
                    group = series.group,
                    options = series.options,
                    animation = options.animation,
                    renderer = chart.renderer,
                    testElement = renderer.text().add(group),
                    placed = [],
                    placementStrategy = series.placementStrategy[options.placementStrategy],
                    spiral = series.spirals[options.spiral],
                    rotation = options.rotation,
                    scale,
                    weights = series.points
                    .map(function(p) {
                        return p.weight;
                    }),
                    maxWeight = Math.max.apply(null, weights),
                    field = getPlayingField(xAxis.len, yAxis.len),
                    maxDelta = (field.width * field.width) + (field.height * field.height),
                    data = series.points
                    .sort(function(a, b) {
                        return b.weight - a.weight; // Sort descending
                    });
                each(data, function(point) {
                    var relativeWeight = 1 / maxWeight * point.weight,
                        css = extend({
                            fontSize: series.deriveFontSize(relativeWeight),
                            fill: point.color
                        }, options.style),
                        placement = placementStrategy(point, {
                            data: data,
                            field: field,
                            placed: placed,
                            rotation: rotation
                        }),
                        attr = {
                            align: 'center',
                            x: placement.x,
                            y: placement.y,
                            text: point.name,
                            rotation: placement.rotation
                        },
                        animate,
                        delta,
                        clientRect;
                    testElement.css(css).attr(attr);
                    // Cache the original DOMRect values for later calculations.
                    point.clientRect = clientRect = extend({},
                        testElement.element.getBoundingClientRect()
                    );
                    delta = intersectionTesting(point, {
                        clientRect: clientRect,
                        element: testElement,
                        field: field,
                        maxDelta: maxDelta,
                        placed: placed,
                        spiral: spiral
                    });
                    /**
                     * Check if point was placed, if so delete it,
                     * otherwise place it on the correct positions.
                     */
                    if (isObject(delta)) {
                        attr.x += delta.x;
                        attr.y += delta.y;
                        extend(placement, {
                            left: attr.x - (clientRect.width / 2),
                            right: attr.x + (clientRect.width / 2),
                            top: attr.y - (clientRect.height / 2),
                            bottom: attr.y + (clientRect.height / 2)
                        });
                        field = updateFieldBoundaries(field, placement);
                        placed.push(point);
                        point.isNull = false;
                    } else {
                        point.isNull = true;
                    }

                    if (animation) {
                        // Animate to new positions
                        animate = {
                            x: attr.x,
                            y: attr.y
                        };
                        // Animate from center of chart
                        if (!hasRendered) {
                            attr.x = 0;
                            attr.y = 0;
                            // or animate from previous position
                        } else {
                            delete attr.x;
                            delete attr.y;
                        }
                    }

                    point.draw({
                        animate: animate,
                        attr: attr,
                        css: css,
                        group: group,
                        renderer: renderer,
                        shapeArgs: undefined,
                        shapeType: 'text'
                    });
                });

                // Destroy the element after use.
                testElement = testElement.destroy();

                /**
                 * Scale the series group to fit within the plotArea.
                 */
                scale = getScale(xAxis.len, yAxis.len, field);
                series.group.attr({
                    scaleX: scale,
                    scaleY: scale
                });
            },
            /**
             * Strategies used for deciding rotation and initial position of a word.
             * To implement a custom strategy, have a look at the function
             *     randomPlacement for example.
             */
            placementStrategy: {
                random: function randomPlacement(point, options) {
                    var field = options.field,
                        r = options.rotation;
                    return {
                        x: getRandomPosition(field.width) - (field.width / 2),
                        y: getRandomPosition(field.height) - (field.height / 2),
                        rotation: getRotation(r.orientations, r.from, r.to)
                    };
                }
            },
            pointArrayMap: ['weight'],
            /**
             * Spirals used for placing a word after the inital position experienced a
             *     collision with either another word or the borders.
             * To implement a custom spiral, look at the function archimedeanSpiral for
             *    example.
             */
            spirals: {
                'archimedean': archimedeanSpiral
            },
            getPlotBox: function() {
                var series = this,
                    chart = series.chart,
                    inverted = chart.inverted,
                    // Swap axes for inverted (#2339)
                    xAxis = series[(inverted ? 'yAxis' : 'xAxis')],
                    yAxis = series[(inverted ? 'xAxis' : 'yAxis')],
                    width = xAxis ? xAxis.len : chart.plotWidth,
                    height = yAxis ? yAxis.len : chart.plotHeight,
                    x = xAxis ? xAxis.left : chart.plotLeft,
                    y = yAxis ? yAxis.top : chart.plotTop;
                return {
                    translateX: x + (width / 2),
                    translateY: y + (height / 2),
                    scaleX: 1, // #1623
                    scaleY: 1
                };
            }
        };

        /**
         * Properties of the Sunburst series.
         */
        var wordCloudPoint = {
            draw: drawPoint,
            shouldDraw: function shouldDraw() {
                var point = this;
                return !point.isNull;
            }
        };

        /**
         * A `wordcloud` series. If the [type](#series.wordcloud.type) option is
         * not specified, it is inherited from [chart.type](#chart.type).
         *
         * For options that apply to multiple series, it is recommended to add
         * them to the [plotOptions.series](#plotOptions.series) options structure.
         * To apply to all series of this specific type, apply it to [plotOptions.
         * wordcloud](#plotOptions.wordcloud).
         *
         * @type {Object}
         * @extends plotOptions.wordcloud
         * @product highcharts
         * @apioption series.wordcloud
         */

        /**
         * An array of data points for the series. For the `wordcloud` series
         * type, points can be given in the following ways:
         * 
         * 1.  An array of arrays with 2 values. In this case, the values
         * correspond to `name,weight`. 
         * 
         *  ```js
         *     data: [
         *         ['Lorem', 4],
         *         ['Ipsum', 1]
         *     ]
         *  ```
         * 
         * 2.  An array of objects with named values. The objects are point
         * configuration objects as seen below. If the total number of data
         * points exceeds the series' [turboThreshold](#series.arearange.turboThreshold),
         * this option is not available.
         * 
         *  ```js
         *     data: [{
         *         name: "Lorem",
         *         weight: 4
         *     }, {
         *         name: "Ipsum",
         *         weight: 1
         *     }]
         *  ```
         * 
         * @type {Array<Object|Array>}
         * @extends series.line.data
         * @excluding drilldown,marker,x,y
         * @product highcharts
         * @apioption series.wordcloud.data
         */

        /**
         * The name decides the text for a word.
         *
         * @type {String}
         * @default undefined
         * @since 6.0.0
         * @product highcharts
         * @apioption series.sunburst.data.name
         */

        /**
         * The weighting of a word. The weight decides the relative size of a word
         * compared to the rest of the collection.
         *
         * @type {Number}
         * @default undefined
         * @since 6.0.0
         * @product highcharts
         * @apioption series.sunburst.data.weight
         */
        H.seriesType('wordcloud', 'column', wordCloudOptions, wordCloudSeries, wordCloudPoint);

    }(Highcharts, draw));
}));
